Class 19: Discussion Notes

Darwin and Paleontology

Conceptual framework before Darwin regarding species through time

  • Lyell
    • Species is a natural unit
    • Species originate in a single place suitable for its survival
    • Species can migrate over time
    • Species go extinct due to environmental change
      • Due to changes in the physical world
    • Overall pattern of gradual turnover
  • Bronn: General patterns or laws in nature
    • Species have an objective reality and can only vary within limits
    • Changes in fauna and flora are gradual and piecemeal
    • Gaps in fossil record due to preservation but suffice to show big features
    • Progress to life
    • No evidence of Lamarkian change
    • No evidence of relationships between different classes
  • Phenomenological Laws
    • Observational patterns of change, but do not attempt to explain causal relations
    • Typical of the time
    • Apply to all the “laws” of Lyell and Bronn

Darwin’s Theories (after Mayr)

  • Species are populations
  • Change through time (evolution, strictly speaking)
  • Common descent
  • Species multiply by splitting of lineages
  • Changes are gradual
  • Changes are due to natural selection

Natural Selection

  • Species are inherently variable
  • Some variations will preferentially survive due to environmental factors
    • Habitat, food availability
    • Changing environments may favor some variants
    • Element of chance here: some environmental factors may vary widely
  • The variations are inheritable, so survivors pass along morphological traits to offspring
  • If a species is split into multiple populations (say by physical barriers), the lineage may split as each population shifts toward most adaptive traits of its environment

Implications

  • Meaning of Taxonomic groups change
    • Species within genera: recent common ancestor in the past
    • Genera within family: shared common ancestor, further back in time
    • Taxonomy = outline of ancestory
    • Implications of a past history of branching and adaptation
  • Quickly applied to fossil record.
    • Fundamental change in meaning of fossil record
    • Some notable examples:
    • Gundry’s mammal studies (1860s)
      • Connect similar species across Cenozoic
      • Inferred ancestor-descendent relationships
    • Horse evolution(1869-70s)
      • Morphological trends in mainline of horse evolution
      • Interpreted as due to adaptive changes in lineage
    • Archaeopterx (1861)
      • Fossils with features of both reptiles and birds
      • Argued to be an example of evolution between one class and another.

Alternatives to natural selection

  • Challenges arose to natural selection in later 19th century
    • Widely adopted by paleontologists
  • Two most notable ones:
    • Neo-Larmarkianism
      • Species activities result in changes to morphology due to use
        • Examples: giraffe neck, horse legs
      • These could be inherited
      • Allows lineage/organism to have some control on its fate
    • Orthogenesis
      • Straight-line morphological changes within lineage
        • Examples: horses, Irish Elk
      • Guided by internal forces so that variation was not random but directed
  • Attractive because they gave a sense of purpose and reduced element of chance.
  • Failed in face of genetics in the early 20th century